WiMO/SWiM: Resource Management in Wireless Mesh
Networks
Wireless
mesh networks are comprised of a network of fixed access points that form a
wide area network while providing a set of gateway nodes to access the
Internet. The following two sister projects address resource management issues
in the context of wireless mesh networks:
- WiMO: Wireless Management Overlay (Prof.
Chen-Nee Chuah and Prof. Mohapatra):
The goal of this project is to design and develop a light-weight, common
management framework to coordinate the monitoring, and resource control of
community wireless mesh networks. To support truly ubiquitous mobile
computing, users should be able to access services and data with high
throughput through multiple (and potentially heterogeneous) wireless
access networks with different resource constraints using client devices
with varying capabilities. Advances in the current generation of wireless
networks have been focused primarily on the
homogeneous environments and single-hop connections to wireless access
points or base stations. These advances are inadequate in heterogeneous
and multi-hop wireless networks for supporting the requirements of
evolving applications such as peer-to-peer media sharing, real-time
traffic, and multicasting. Resource management across the heterogeneous
networks is essential to provide end-to-end services for these demanding
application classes.
- SWiM: Scalable Wireless Mesh (Prof. Xin Liu
and Prof. Mohapatra):
We envision a scalable wireless mesh network in a multi-story enterprise
building, with tens-to-hundreds of portals and APs
and hundreds-to-thousands of users. Scalability, in terms of bandwidth and
QoS under dynamic traffic conditions, is the
major concern in such an enterprise network. While current wireless
network scales by deploying more wired APs,
often in an ad-hoc mode, we propose to address the scalability issue
through intelligent portal deployment and through multi-channel
multi-radio technology. In addition, current wireless networking lacks the
integration and formations that are stabilized in today's
wired enterprise networks. We exploit the flexibility of the heterogeneous
architecture to improve user experience.
Publications:
- Heterogeneous Wireless Access in Large Mesh Networks [pdf]
Haiping Liu, Xin Liu, Chen-nee Chuah, and
Prasant Mohapatra.
Fifth IEEE International Conference on Mobile
Ad-hoc and Sensor Systems (MASS), Atlanta, GA, Sept. 29-Oct. 2, 2008.
- Channel
Assignment and Link Scheduling in Multi-radio Multi-channel Wireless Mesh
Networks
H. Yu, P. Mohapatra, and Xin Liu.
Mobile Networks and Applications, Springer, April, 2008.
- Dynamic Channel
Assignment and Link Scheduling in Multi-Radio Multi-Channel Wireless Mesh
Networks. [pdf]
Hua
Yu, P. Mohapatra, and Xin Liu.
The 4th Annual International Conference on Mobile
and Ubiquitous Systems: Computing, Networking and Services, (ACM Mobiquitous 2007), August 6-10, 2007 - Philadelphia, PA.
- Robust Routing and
Scheduling in Wireless Mesh Networks. [pdf]
W. Wang, X. Liu, and D. Krishnaswamy.
IEEE SECON 2007, San Diego, CA,
2007.
- Energy Efficient Throughput optimization
in multi-hop wireless networks. [pdf]
Dan Xu and Xin Liu.
IFIP
Networking 2007, Atlanta,
GA, May 14-18, 2007.
- Scheduling Multiple Partially Overlapped
Channels in Wireless Mesh Network. [pdf]
H. Liu, H. Yu, X. Liu, C. Chuah, and P. Mohapatra.
IEEE ICC, Glasgow,
June 24-28, 2007.
*This is a copy of this [page] of Prof. Chen-Nee
Chuah.